A Novel Corrosion Inhibition of Dodecylamine Ethyl Sulfonate on Titanium in Hydrochloric Acid Medium

IF 0.8 4区材料科学 Q3 METALLURGY & METALLURGICAL ENGINEERING

Protection of Metals and Physical Chemistry of Surfaces Pub Date : 2026-02-06 DOI:10.1134/S207020512570114X

Xiulan Zhang

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Abstract

To develop an effective corrosion inhibitor for titanium (Ti) alloys under acidizing conditions, dodecylamine was reacted with sodium 2-chloroethyl sulfonate to synthesize dodecylamine ethyl sulfonate (DAS), a sulfonic acid group containing compound. In this work, the corrosion inhibition performance of DAS was systematically evaluated in 20% hydrochloric acid solution at 90°C, simulating the highly aggressive environment of industrial acidizing operations. Weight-loss and electrochemical measurements confirmed that DAS exhibits excellent protective capability, achieving an inhibition efficiency of 92.8% at 5000 mg/L. Compared with conventional inhibitors such as mannich bases, quaternary ammonium salts, and imidazoline derivatives, DAS maintains both high efficiency and thermal stability for titanium alloys in hot HCl. This highlights the innovation of DAS as one of the few inhibitors capable of effectively protecting titanium alloys in concentrated hydrochloric acid at elevated temperatures. The findings not only broaden the application scope of surfactant-based inhibitors but also provide practical insights for corrosion control in demanding acidizing environments.

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新型十二烷基胺乙基磺酸盐在盐酸介质中对钛的缓蚀作用

为了开发一种有效的酸化条件下钛（Ti）合金缓蚀剂，将十二烷基胺与2-氯乙基磺酸钠反应合成了含磺酸基化合物十二烷基胺乙基磺酸盐（DAS）。在这项工作中，系统地评估了DAS在90°C的20%盐酸溶液中的缓蚀性能，模拟了工业酸化作业的高腐蚀性环境。失重和电化学测量证实了DAS具有出色的保护能力，在5000 mg/L时达到92.8%的缓蚀效率。与曼尼希碱、季铵盐和咪唑啉衍生物等传统抑制剂相比，DAS在高温盐酸中对钛合金保持了高效率和热稳定性。这突出了DAS作为少数几种能够在高温浓盐酸中有效保护钛合金的抑制剂之一的创新之处。这一发现不仅拓宽了表面活性剂抑制剂的应用范围，而且为苛刻酸化环境下的腐蚀控制提供了实用的见解。

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来源期刊

Protection of Metals and Physical Chemistry of Surfaces 工程技术-冶金工程

CiteScore

1.90

自引率

18.20%

发文量

审稿时长

4-8 weeks

期刊介绍： Protection of Metals and Physical Chemistry of Surfaces is an international peer reviewed journal that publishes articles covering all aspects of the physical chemistry of materials and interfaces in various environments. The journal covers all related problems of modern physical chemistry and materials science, including: physicochemical processes at interfaces; adsorption phenomena; complexing from molecular and supramolecular structures at the interfaces to new substances, materials and coatings; nanoscale and nanostructured materials and coatings, composed and dispersed materials; physicochemical problems of corrosion, degradation and protection; investigation methods for surface and interface systems, processes, structures, materials and coatings. No principe restrictions exist related systems, types of processes, methods of control and study. The journal welcomes conceptual, theoretical, experimental, methodological, instrumental, environmental, and all other possible studies.